Professor | Wei Guo | Asia Growth Partners

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Name	Wei Guo
Contact Information	guowei@ioz.ac.cn
Language ability	English, Chinese
Province	Beijing

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Name

Wei Guo

Contact Information

guowei@ioz.ac.cn

Language ability

English, Chinese

Province

Beijing

University/Lab Affiliation and Title	Chinese Academy of Sciences
Faculty	Institute of Zoology
Work Experience	2010-2012 - Institute of Zoology, Chinese Academy of Sciences - Assistant Researcher 2013-2023 - Institute of Zoology, Chinese Academy of Sciences - Associate Researcher 2023-Present - Institute of Zoology, Chinese Academy of Sciences - Researcher 2016-2017 - University of Illinois at Urbana-Champaign - Visiting Scholar
Awards	2022: Ministry of Agriculture Shennong Young Talent Award 2017: State Council National Natural Science Award Second Prize (Ranked Fourth)

University/Lab Affiliation and Title

Chinese Academy of Sciences

Faculty

Institute of Zoology

Work Experience

2010-2012 - Institute of Zoology, Chinese Academy of Sciences - Assistant Researcher
2013-2023 - Institute of Zoology, Chinese Academy of Sciences - Associate Researcher
2023-Present - Institute of Zoology, Chinese Academy of Sciences - Researcher
2016-2017 - University of Illinois at Urbana-Champaign - Visiting Scholar

Awards

2022: Ministry of Agriculture Shennong Young Talent Award
2017: State Council National Natural Science Award Second Prize (Ranked Fourth)

Areas of Focus	Insect Genomics
Publications	Locust density shapes energy metabolism and oxidative stress resulting in divergence of flight traits., Du B, Ding D, Ma C, Guo W, Kang L, 2022 Genomic and transcriptomic analysis unveils population evolution and development of pesticide resistance in fall armyworm Spodoptera frugiperda., Gui F#, Lan T#, Zhao Y#, Guo W#, Dong Y, Fang D et al, 2022 Embryonic development of grasshopper populations along latitudinal gradients reveal differential thermoaccumulation for adaptation to climate warming., Hao S, Liu C, Ma C, Guo W, Kang L, 2021 FAWMine: An integrated database and analysis platform for fall armyworm genomics., Yang P, Wang D, Guo W, Kang L, 2021 Phase-related differences in egg production of the migratory locust regulated by differential oosorption through microRNA-34 targeting activinβ., Zhao L#, Guo W#, Jiang F, He J, Liu H, Song J, Yu D, Kang L, 2021 Juvenile hormone suppresses aggregation behavior through influencing antennal gene expression in locusts., Guo W#, Song J#, Yang P, Chen X, Chen D, Ren D, Kang L, Wang X, 2020 Regulatory mechanisms of cell polyploidy in insects., Ren D#, Song J#, Ni M, Kang L, Guo W, 2020 Structural and functional differentiation of a fat body-like tissue adhering to testis follicles facilitates spermatogenesis in locusts., Ren D#, Guo W#, Yang P#, Song J, He J, Zhao L, Kang L, 2019 Juvenile hormone-dependent Kazal-type serine protease inhibitor Greglin safeguards insect vitellogenesis and egg production., Guo W#, Wu Z#, Yang L, Cai Z, Zhao L, Zhou S, 2019 Juvenile hormone promotes locust fat body cell polyploidization and vitellogenesis by activating the transcription of Cdk6 and E2f1., Wu Z#, Guo W#, Yang L, He Q, Zhou S, 2018 Identification of odorant-binding proteins (OBPs) and functional analysis of phase-related OBPs in the migratory locust., Guo W, Ren D, Zhao L, Jiang F, Song J, Wang X, Kang L, 2018 Juvenile hormone activates the transcription of cell-division-cycle 6 (cdc6) for polyploidy-dependent insect vitellogenesis and oogenesis., Wu Z, Guo W, Xie Y, Zhou S, 2016 Juvenile hormone-receptor complex acts on mcm4 and mcm7 to promote polyploidy and vitellogenesis in the migratory locust., Guo W#, Wu Z#, Song J, Jiang F, Wang Z, Deng S, W. VK, Zhou S, 2014 Argonaute 1 is indispensable for juvenile hormone mediated oogenesis in the migratory locust, Locusta migratoria., Song J, Guo W, Jiang F, Kang L, Zhou S, 2013 Modulation of behavioral phase changes of the migratory locust by the catecholamine metabolic pathway., Ma Z, Guo W, Guo X, Wang X, Kang L, 2011 CSP and takeout genes modulate the switch between attraction and repulsion during behavioral phase change in the migratory locust., Guo W#, Wang X#, Ma Z, Xue L, Han J, Yu D, Kang L, 2011 Molecular cloning and temporal-spatial expression of I element in gregarious and solitary locusts., Guo W#, Wang X#, Zhao D, Yang P, Kang L, 2010 Insect Reproductive Regulation and Adaptive Ecological Genomics, Wei Guo, Dan Ni, 2019

Areas of Focus

Insect Genomics

Publications

Locust density shapes energy metabolism and oxidative stress resulting in divergence of flight traits., Du B, Ding D, Ma C, Guo W*, Kang L*, 2022
Genomic and transcriptomic analysis unveils population evolution and development of pesticide resistance in fall armyworm Spodoptera frugiperda., Gui F#, Lan T#, Zhao Y#, Guo W#, Dong Y, Fang D et al, 2022
Embryonic development of grasshopper populations along latitudinal gradients reveal differential thermoaccumulation for adaptation to climate warming., Hao S, Liu C, Ma C, Guo W*, Kang L*, 2021
FAWMine: An integrated database and analysis platform for fall armyworm genomics., Yang P, Wang D, Guo W, Kang L*, 2021
Phase-related differences in egg production of the migratory locust regulated by differential oosorption through microRNA-34 targeting activinβ., Zhao L#, Guo W#, Jiang F, He J, Liu H, Song J, Yu D, Kang L*, 2021
Juvenile hormone suppresses aggregation behavior through influencing antennal gene expression in locusts., Guo W#, Song J#, Yang P, Chen X, Chen D, Ren D, Kang L*, Wang X*, 2020
Regulatory mechanisms of cell polyploidy in insects., Ren D#, Song J#, Ni M, Kang L*, Guo W*, 2020
Structural and functional differentiation of a fat body-like tissue adhering to testis follicles facilitates spermatogenesis in locusts., Ren D#, Guo W#, Yang P#, Song J, He J, Zhao L, Kang L*, 2019
Juvenile hormone-dependent Kazal-type serine protease inhibitor Greglin safeguards insect vitellogenesis and egg production., Guo W#, Wu Z#, Yang L, Cai Z, Zhao L, Zhou S*, 2019
Juvenile hormone promotes locust fat body cell polyploidization and vitellogenesis by activating the transcription of Cdk6 and E2f1., Wu Z#, Guo W#, Yang L, He Q, Zhou S*, 2018
Identification of odorant-binding proteins (OBPs) and functional analysis of phase-related OBPs in the migratory locust., Guo W, Ren D, Zhao L, Jiang F, Song J, Wang X, Kang L*, 2018
Juvenile hormone activates the transcription of cell-division-cycle 6 (cdc6) for polyploidy-dependent insect vitellogenesis and oogenesis., Wu Z, Guo W, Xie Y, Zhou S*, 2016
Juvenile hormone-receptor complex acts on mcm4 and mcm7 to promote polyploidy and vitellogenesis in the migratory locust., Guo W#, Wu Z#, Song J, Jiang F, Wang Z, Deng S, W. VK, Zhou S*, 2014
Argonaute 1 is indispensable for juvenile hormone mediated oogenesis in the migratory locust, Locusta migratoria., Song J, Guo W, Jiang F, Kang L, Zhou S*, 2013
Modulation of behavioral phase changes of the migratory locust by the catecholamine metabolic pathway., Ma Z, Guo W, Guo X, Wang X, Kang L*, 2011
CSP and takeout genes modulate the switch between attraction and repulsion during behavioral phase change in the migratory locust., Guo W#, Wang X#, Ma Z, Xue L, Han J, Yu D, Kang L*, 2011
Molecular cloning and temporal-spatial expression of I element in gregarious and solitary locusts., Guo W#, Wang X#, Zhao D, Yang P, Kang L*, 2010
Insect Reproductive Regulation and Adaptive Ecological Genomics, Wei Guo, Dan Ni, 2019

Genomics Insects Locusts Behavioral Adaptation Molecular Regulation Reproductive Control Genomic Techniques Locust Phase Change Molecular Mechanisms Sustainable Control

Feng Cui - Chinese Academy of Sciences

Kang Le - Chinese Academy of Sciences

Xianhui Wang - Chinese Academy of Sciences

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